US20200108490A1 - Striking torque adjustment device of hydraulic torque wrench - Google Patents
Striking torque adjustment device of hydraulic torque wrench Download PDFInfo
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- US20200108490A1 US20200108490A1 US16/577,414 US201916577414A US2020108490A1 US 20200108490 A1 US20200108490 A1 US 20200108490A1 US 201916577414 A US201916577414 A US 201916577414A US 2020108490 A1 US2020108490 A1 US 2020108490A1
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- hydraulic
- valve element
- torque
- liner
- striking
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B21/00—Portable power-driven screw or nut setting or loosening tools; Attachments for drilling apparatus serving the same purpose
- B25B21/02—Portable power-driven screw or nut setting or loosening tools; Attachments for drilling apparatus serving the same purpose with means for imparting impact to screwdriver blade or nut socket
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B23/00—Details of, or accessories for, spanners, wrenches, screwdrivers
- B25B23/14—Arrangement of torque limiters or torque indicators in wrenches or screwdrivers
- B25B23/145—Arrangement of torque limiters or torque indicators in wrenches or screwdrivers specially adapted for fluid operated wrenches or screwdrivers
- B25B23/1453—Arrangement of torque limiters or torque indicators in wrenches or screwdrivers specially adapted for fluid operated wrenches or screwdrivers for impact wrenches or screwdrivers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B23/00—Details of, or accessories for, spanners, wrenches, screwdrivers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25F—COMBINATION OR MULTI-PURPOSE TOOLS NOT OTHERWISE PROVIDED FOR; DETAILS OR COMPONENTS OF PORTABLE POWER-DRIVEN TOOLS NOT PARTICULARLY RELATED TO THE OPERATIONS PERFORMED AND NOT OTHERWISE PROVIDED FOR
- B25F5/00—Details or components of portable power-driven tools not particularly related to the operations performed and not otherwise provided for
- B25F5/005—Hydraulic driving means
Definitions
- the present invention relates to a striking torque adjustment device of a hydraulic torque wrench.
- FIGS. 6 and 7 illustrate an example of the hydraulic torque wrench.
- a hydraulic torque wrench 1 has a main valve 2 for supplying and stopping high-pressure air, and a normal-reverse rotation switching valve 3 for selectively generating a normal/reverse rotating striking torque so as to drive a rotor 4 which generates a rotating torque by high-pressure air sent via both the valves 2 and 3 .
- a hydraulic striking torque generation device 5 which converts the rotating torque of the rotor 4 into a striking torque is then installed in a case 6 of the hydraulic torque wrench 1 .
- the hydraulic striking torque generation device 5 it is configured so that the cavity formed in the liner 7 rotated by the rotor 4 is filled with hydraulic oil and sealed, and a main shaft 8 that is coaxially inserted into the liner 7 is provided with two (or may be one or plural such as three or more) blade insertion grooves, and a blade 9 is inserted into the blade insertion groove.
- the blade 9 is then energized by the spring 10 in the outer peripheral direction of the main shaft 8 all the time so as to come into contact with the inner peripheral surface of the liner 7 .
- the striking torque generation device 5 is provided with the output adjustment mechanism 11 which makes it possible to adjust the magnitude of the generated striking torque.
- the output adjustment mechanism 11 which adjusts the magnitude of the striking torque is configured to operate an operating shaft so as to adjust the size of a hydraulic fluid flow path which communicates the interior of the liner 7 serving as a high-pressure chamber and a low-pressure chamber at the time of occurrence of the striking torque (specifically, the magnitude of the striking torque decreases by operating an operating shaft toward the open side to enlarge the hydraulic fluid flow path so as to decrease, whereas the magnitude of the striking torque increases by operating the operating shaft toward the closed side to reduce the hydraulic fluid flow path).
- Patent Document 3 a striking torque adjustment device of a hydraulic torque wrench which is provided with an output adjustment mechanism for adjusting the magnitude of the striking torque which makes it possible to improve the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench and shorten the generation cycle of the striking torque.
- FIGS. 8 to 9 illustrate an example of the hydraulic torque wrench.
- the hydraulic torque wrench 1 is provided with a magnetostrictive torque detection mechanism, and controls the driving of the rotor 4 by an output from the magnetostrictive torque detection mechanism 12 .
- an output adjustment mechanism 11 is configured to adjust the magnitude of the striking torque by operating an operating shaft 11 a so as to adjust the size of a hydraulic fluid flow path 11 b which communicates the interior of a liner 7 serving as a high-pressure chamber H and a low-pressure chamber L at the time of occurrence of the striking torque (specifically, the magnitude of the striking torque decreases by operating the operating shaft 11 a toward the open side to enlarge (not to restrict) the hydraulic fluid flow path 11 b , whereas the magnitude of the striking torque increases by operating the operating shaft 11 a toward the closed side to reduce (restrict) the hydraulic fluid flow path 11 b ).
- a valve element 11 d is disposed in the hydraulic fluid flow path 11 b which is energized by the operation shaft 11 a and a spring 11 c in the direction of opening the hydraulic fluid flow path 11 b , and an oil chamber 11 e is formed on the rear portion of the valve element 11 d which communicates with the interior of the liner 7 serving as a high-pressure chamber H at the timer of occurrence of the striking torque is generated is formed.
- An automatic relief mechanism is then provided in which, when the hydraulic fluid pressure in the high-pressure chamber H rises as the tightening operation proceeds, the hydraulic fluid pressure in the high-pressure chamber H rises in accordance with the progress of the tightening operation, the hydraulic fluid flow path 11 b becomes smaller (restricted) with increase in the hydraulic fluid pressure in the high-pressure chamber H, as show in FIGS. 9 ( a ) to 9( b ) .
- the striking torque adjustment device of the hydraulic torque wrench 1 disclosed in Patent Document 3 provides excellent working effects described above, however, functions merely at the time of rotating in one direction, i.e., during normal rotation (tightening), and thud did not function during reverse rotation (loosening) so as not to provide the working effects described above.
- the applicant has offered the striking torque generation device of the hydraulic torque wrench which can increases the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench at the time of rotating in both directions, i.e., during normal rotation (tightening) and reverse rotation (loosening), shortens the generation period of the striking torque, and also improve the durability of the striking torque generation device of the hydraulic torque wrench (Patent Document 4).
- FIGS. 10 and 11 illustrate an example of the hydraulic torque wrench.
- the output adjustment mechanism 11 which provided in the hydraulic torque wrench 1 to adjust the magnitude of the striking torque forms the hydraulic fluid flow path 11 b which communicates the interior of a liner 7 serving as the high-pressure chamber H and the low-pressure chamber L at the time of occurrence of the striking torque.
- a valve element 15 d is disposed in the hydraulic fluid flow path 11 b which is energized in the direction of opening the hydraulic fluid flow path 11 b
- the oil chamber 11 e is formed on the rear portion of a valve element 15 d which communicates with a blade insertion portion 8 a of a main shaft 8 via flow paths 7 c and 7 d formed on liner lids 7 a and 7 b .
- An automatic relief mechanism is then provided in which the hydraulic fluid flow path 11 b becomes smaller (the state shown in the upper side of FIG. 11 ) with increase in the hydraulic fluid pressure in the blade insertion portion 8 a of the main shaft 8 which rises in accordance with the increase in the hydraulic fluid pressure in the high-pressure chamber H.
- the valve element 15 d is composed of two valve elements 15 d disposed so as to face each other across the hydraulic fluid flow path 15 b , and is energized via a spring 15 c in a direction to open the hydraulic fluid flow path 15 b.
- one valve element 15 d (the right valve element 15 d in FIG. 10 ( a ) ) is formed to be solid, and the other valve element 15 d ( FIG. 10 (In a), the left valve element 15 d ) is formed in a bottomed cylindrical shape, and a spring receiver and guide 15 f to be inserted into the tubular portion of the left valve body 15 d formed in a bottomed cylindrical shape is provided to be projected from the right valve body 15 d formed to be solid.
- the two valve elements 15 d are disposed so as to face each other across the hydraulic fluid flow path 11 b , and the oil chamber 15 e is formed on the rear portion of each valve element 15 d which communicates with the blade insertion portion 8 a of the main shaft 8 via the flow paths 7 c and 7 d formed on the liner lids 7 a and 7 b , so that the two valve elements 15 d move so as to decrease (restrict) the hydraulic fluid flow path 11 b with increase in the hydraulic fluid pressure in the blade insertion portion 8 a of the main shaft 8 which rises in accordance with the increase in the hydraulic fluid pressure in the high-pressure chamber H.
- the striking torque adjustment device of the hydraulic torque wrench disclosed in Patent Documents 3 and 4 provides excellent working effects described above, however, the problem of durability exists since the springs 11 c and 11 c are used for the output adjustment mechanism 11 which adjusts the magnitude of the striking torque. Furthermore, since there is a restriction on the size of the hydraulic fluid flow path at the time of opening, it is difficult to obtain an effect of improving a sufficient energy efficiency. Moreover, since the flow rate of the hydraulic fluid is adjusted by the hydraulic fluid pressure, there has been a problem of being susceptible to fluctuation in oil quantity.
- An object of the present invention is to provide a striking torque adjustment device of a hydraulic torque wrench which enjoys the advantages, those which are the striking torque adjustment device of the hydraulic torque wrench disclosed in Patent Document 3 and Patent Document 4 has, of improving the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench, shortening the generation cycle of the striking torque, while improving the durability and energy efficiency of the striking torque generation device of the hydraulic torque wrench, as well as making the device less susceptible to fluctuation in oil quantity.
- the striking torque adjustment device of the hydraulic torque wrench has a liner rotated by a rotor, and a main shaft and a blade disposed inside of the liner, characterized in that: the liner is provided with a cylinder portion formed in parallel to the rotation axis, and also a hydraulic fluid flow path is formed which opens to the cylinder portion to communicate with the interior of the liner serving as a high-pressure chamber and a low-pressure chamber at the time of occurrence of a striking torque; a cylindrical valve element having a cutout portion serving as a flow path for hydraulic oil formed on the outer peripheral surface portion is disposed inside the cylinder portion so as to be freely rotatable; the rotational position of the valve element changes inside the cylinder portion by means of centrifugal force caused by the revolution of the valve element obtained from rotation of the liner and an inertial force caused by the rotation of the valve element obtained from the sudden braking of the liner at the time of generation of the pulse; and an automatic relief mechanism is
- each of the ends of the valve element can be supported by a steel ball.
- the striking torque adjustment device of the hydraulic torque wrench it is possible to improve the accuracy of the magnitude of the striking torque generated by a striking torque generation device of the hydraulic torque wrench, shorten the generation cycle of the striking torque, and furthermore improve the durability and energy efficiency of the striking torque generation device of the hydraulic torque wrench, as well as making the device less susceptible to fluctuation in oil quantity.
- each of the ends of the valve element is supported by a steel ball, so that it is possible to smoothen the rotational motion of the valve element.
- FIG. 1 is an overall front cross-sectional view illustrating an example of a striking torque adjustment device of a hydraulic torque wrench according to the present invention.
- FIG. 2 is an operation explanatory view of the striking torque adjustment device of the hydraulic torque wrench according to the present invention.
- FIGS. 3( a ) and 3( b ) are explanatory views of a valve element of the striking torque adjustment device of the hydraulic torque wrench: FIG. 3( a ) is an overall view; and FIG. 3( b ) is a cross sectional view at A-A, B-B and C-C of FIG. 3( a ) .
- FIGS. 4( a ) and 4( b ) illustrate an output characteristic diagram: FIG. 4( a ) shows a case of a conventional example (Patent Document 4); and FIG. 4( b ) shows a case of the embodiments.
- FIGS. 5( a ) and 5( b ) illustrate an output characteristic diagram: FIG. 5( a ) shows a case of a conventional example (Patent Document 4); and FIG. 5( b ) shows a case of the embodiments.
- FIG. 6 is an overall front cross-sectional view illustrating a conventional striking torque adjustment device of a hydraulic torque wrench.
- FIG. 7 is an overall front cross-sectional view illustrating a conventional striking torque adjustment device of a hydraulic torque wrench.
- FIG. 8 is an overall front cross-sectional view illustrating a conventional striking torque adjustment device of a hydraulic torque wrench.
- FIGS. 9( a )-9( d ) are explanatory views of the main part of the conventional striking torque adjustment device of the hydraulic torque wrench:
- FIG. 9( a ) is a front cross-sectional view of the main part at the time of beginning of the tightening operation;
- FIG. 9( b ) is a front cross-sectional view of the main part in progress of the tightening operation
- FIG. 9( c ) is a cross-sectional view at A-A of FIG. 9( a )
- FIG. 9( d ) is a cross-sectional view at B-B of FIG. 9( a ) .
- FIGS. 10( a ) and 10( b ) illustrate a conventional striking torque adjustment device of a hydraulic torque wrench: FIG. 10( a ) is a front cross-sectional view; and FIG. 9( b ) is a cross-sectional view at A-A of FIG. 9( a ) .
- FIG. 11 is an operation explanatory view of a conventional striking torque adjustment device of a hydraulic torque wrench.
- FIGS. 1 to 3 illustrate an example of a striking torque adjustment device of a hydraulic torque wrench according to the present invention.
- a hydraulic torque wrench 1 is provided with a magnetostrictive torque detection mechanism 12 , and controls the driving of a rotor 4 by an output from the magnetostrictive torque detection mechanism 12 .
- a hydraulic torque wrench 1 is provided with a magnetostrictive torque detection mechanism 12 , and the drive of the rotor 4 is controlled by the output of this magnetostrictive torque detection mechanism 12 .
- an output adjustment mechanism 11 is configured to adjust the magnitude of the striking torque by operating an operating shaft 11 a so as to adjust the size of a hydraulic fluid flow path 11 b which communicates the interior of a liner 7 serving as a high-pressure chamber H and a low-pressure chamber L at the time of occurrence of the striking torque (specifically, the magnitude of the striking torque decreases by operating the operating shaft 11 a toward the open side to enlarge (not to restrict) the hydraulic fluid flow path 11 b , whereas the magnitude of the striking torque increases by operating the operating shaft 11 a toward the closed side to reduce (restrict) the hydraulic fluid flow path 11 b ).
- the liner 7 is provided with a cylinder portion 14 a formed in parallel to the rotation axis, and also a hydraulic fluid flow path 14 c is formed which opens to the cylinder portion 14 a to communicate with the interior of the liner serving as a high-pressure chamber and a low pressure chamber at the time of occurrence of the striking torque.
- a cylindrical valve element 14 b having a cutout portion 14 b ′ serving as a flow path for hydraulic oil formed on the outer peripheral surface portion thereof is disposed inside the cylinder portion 14 a so as to be freely rotatable, so that the rotational position of the valve element 14 b changes inside the cylinder portion 14 a by means of centrifugal force caused by the revolution of the valve element 14 b obtained from rotation of the liner 7 and an inertial force caused by the rotation of the valve element 14 b obtained from the sudden braking of the liner 7 at the time of generation of the pulse.
- an automatic relief mechanism 14 in which the change in the rotational position of the valve element 14 b inside the cylinder portion 14 a changes the overlapping area of the hydraulic fluid flow path 14 c of the cylinder portion 14 a and the cutout portion 14 b ′ of the valve element 14 b so as to adjust the flow rate of the hydraulic fluid from the side of the high-pressure chamber H to the side of the low-pressure chamber L via the hydraulic fluid flow path 14 c and the cutout portion 14 b ′ of the valve element 14 b.
- the center of gravity thereof is offset from the central axis by forming the cutout portion 14 b ′ that serves as a hydraulic oil flow path on the peripheral surface of the columnar material.
- the cutout portion 14 b ′ is divided into three sections by two partition walls, but can be configured as one cutout portion without being divided.
- the rotational position of the valve element 14 b inside the cylinder portion 14 a is located by means of the centrifugal force caused by the revolution of the valve element 14 b obtained from the rotation of the liner 7 so that the cutout portion 14 b ′ of the valve element 14 b is directed to the center side of the rotation axis of the liner 7 (the state shown in the lower part of FIG. 2 ).
- This increases the overlapping area between an opening of the hydraulic fluid flow path 14 c of the cylinder portion 14 a and the cutout portion 14 b ′ of the valve element 14 b , and the flow rate of the hydraulic fluid via the hydraulic fluid flow path 14 c and the cutout portion 14 b ′ of the valve element 14 b is not restricted.
- the rotational position of the valve element 14 b inside the cylinder portion 14 a is changed by the inertial force caused by the rotation of the valve element 14 b obtained from the sudden braking of the liner 7 at the time of generation of the pulse so that the cutout portion 14 b ′ of the valve element 14 b is directed toward the direction other than the center side of the rotation axis of the liner 7 (the state shown in the upper side of FIG. 2 ).
- the valve element 14 b made of a columnar material can improve mechanical properties such as wear resistance by applying chrome plating to a steel rod, and each of ends 14 b ′′ of the valve element 14 b can be supported by a steel ball 14 d . This makes it possible to smoothen the rotational motion of the valve element 14 b.
- the striking torque generation device of the hydraulic torque wrench increases the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench at the time of rotating in both directions, i.e., during normal rotation (tightening) and reverse rotation (loosening), shortens the generation period of the striking torque, and also improve the durability of the striking torque generation device of the hydraulic torque wrench.
- the following effects are provided.
- the conventional striking torque adjustment device of the hydraulic torque wrench has used springs 11 c and 15 c for the output adjustment mechanism 11 which adjusts the magnitude of the striking torque.
- the striking torque adjustment device of the hydraulic torque wrench of the present invention does not use such a spring, and therefore the durability can be improved.
- the conventional striking torque adjustment device of the hydraulic torque wrench have had a limitation in size of the hydraulic fluid flow path when it is opened.
- the striking torque adjustment device of the hydraulic torque wrench of the present invention does not undergo such a restriction, and therefore the energy efficiency can be improved (compared to the conventional example (Patent Document 4) in FIGS. 4( a ) and 4( b ) in which high pressure air at 0.6 MPa is supplied to the rotor 4 (air motor), Example in FIG.
- the striking torque adjustment device of the hydraulic torque wrench adjusts the flow rate of hydraulic oil by means of the pressure of the hydraulic oil, and thus has been susceptible to fluctuations in oil quantity.
- the striking torque adjustment device of the hydraulic torque wrench of the present invention can adjust the flow rate of the hydraulic oil irrespective of the pressure of the hydraulic oil, and therefore is less affected by fluctuation in oil quantity due to leakage of the hydraulic oil by long term use of the hydraulic torque wrench, thereby making it possible to maintain the stable operating status over a long period of time (compared to the conventional example (Patent Document 4) in FIG.
- Example in FIG. 5( b ) could reduce the time required for the tightening work from 1.18 seconds to 0.93 seconds).
- the striking torque adjustment device of the hydraulic torque wrench of the present invention has been described above based on the embodiment therefor.
- the present invention is not limited to the configuration described in the above embodiment, but the configuration can be modified as appropriate without departing from the spirit of the invention; that is, an electric motor may be used instead of the rotor 4 (air motor) that generates rotating torque with high-pressure air; and, instead of controlling the drive thereof by the output from the torque detection mechanism such as the magnetostrictive torque detection mechanism 12 , the output adjustment mechanism 11 is provided with a relief valve B, similar to the conventional hydraulic torque wrench disclosed in FIG.
- the striking torque adjustment device of the hydraulic torque wrench of the present invention has the characteristics making it possible to improve the accuracy of the magnitude of the striking torque generated by a striking torque generation device of the hydraulic torque wrench, shorten the generation cycle of the striking torque, and furthermore improve the durability and energy efficiency of the striking torque generation device of the hydraulic torque wrench, as well as making the device less susceptible to fluctuation in oil quantity. Therefore, it may be suitable for use in hydraulic torque wrench applications that use a hydraulic striking torque generation device.
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Abstract
Description
- The present invention relates to a striking torque adjustment device of a hydraulic torque wrench.
- Conventionally, as a striking torque generation device of a torque wrench, a hydraulic torque wrench which uses a hydraulic striking torque generation device with low noise and vibration has been developed and become commercially practical (see
Patent Documents 1 and 2, for example). -
FIGS. 6 and 7 illustrate an example of the hydraulic torque wrench. A hydraulic torque wrench 1 has amain valve 2 for supplying and stopping high-pressure air, and a normal-reverserotation switching valve 3 for selectively generating a normal/reverse rotating striking torque so as to drive arotor 4 which generates a rotating torque by high-pressure air sent via both thevalves torque generation device 5 which converts the rotating torque of therotor 4 into a striking torque is then installed in acase 6 of the hydraulic torque wrench 1. - In the hydraulic striking
torque generation device 5, it is configured so that the cavity formed in theliner 7 rotated by therotor 4 is filled with hydraulic oil and sealed, and amain shaft 8 that is coaxially inserted into theliner 7 is provided with two (or may be one or plural such as three or more) blade insertion grooves, and ablade 9 is inserted into the blade insertion groove. Theblade 9 is then energized by thespring 10 in the outer peripheral direction of themain shaft 8 all the time so as to come into contact with the inner peripheral surface of theliner 7. - Furthermore, the striking
torque generation device 5 is provided with theoutput adjustment mechanism 11 which makes it possible to adjust the magnitude of the generated striking torque. - Then, when the
liner 7 is rotatably driven by therotor 4 and thus a plurality of seal surfaces formed on the inner peripheral surface of theliner 7 matches with a seal surface formed on the outer peripheral surface of themain shaft 8 and theblade 9, the strike torque is generated on themain shaft 8 to tighten or loosen a nut and the like engaged with the tip of themain shaft 8. - Then, in the conventional hydraulic torque wrench, the
output adjustment mechanism 11 which adjusts the magnitude of the striking torque is configured to operate an operating shaft so as to adjust the size of a hydraulic fluid flow path which communicates the interior of theliner 7 serving as a high-pressure chamber and a low-pressure chamber at the time of occurrence of the striking torque (specifically, the magnitude of the striking torque decreases by operating an operating shaft toward the open side to enlarge the hydraulic fluid flow path so as to decrease, whereas the magnitude of the striking torque increases by operating the operating shaft toward the closed side to reduce the hydraulic fluid flow path). - However, the size of the hydraulic fluid flow path adjusted by operating the operating shaft is constant (fixed) during the operation of the hydraulic torque wrench, thereby causing the following problems (1) to (4).
- (1) An error between the actually generated striking torque and the set striking torque is large.
(2) Abnormally high striking torque tends to occur at the time of beginning of tightening operation (when a tightening member is seated).
(3) The resistance after the striking torque is generated (after the pulse is generation) is large and the generation cycle of the striking torque is long.
(4) A load pressure tends to be applied to the seal portion and the durability is poor. - In order to address this problem, the applicant has offered a striking torque adjustment device of a hydraulic torque wrench which is provided with an output adjustment mechanism for adjusting the magnitude of the striking torque which makes it possible to improve the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench and shorten the generation cycle of the striking torque (Patent Document 3).
-
FIGS. 8 to 9 illustrate an example of the hydraulic torque wrench. The hydraulic torque wrench 1 is provided with a magnetostrictive torque detection mechanism, and controls the driving of therotor 4 by an output from the magnetostrictivetorque detection mechanism 12. - Then, an
output adjustment mechanism 11 is configured to adjust the magnitude of the striking torque by operating anoperating shaft 11 a so as to adjust the size of a hydraulicfluid flow path 11 b which communicates the interior of aliner 7 serving as a high-pressure chamber H and a low-pressure chamber L at the time of occurrence of the striking torque (specifically, the magnitude of the striking torque decreases by operating theoperating shaft 11 a toward the open side to enlarge (not to restrict) the hydraulicfluid flow path 11 b, whereas the magnitude of the striking torque increases by operating theoperating shaft 11 a toward the closed side to reduce (restrict) the hydraulicfluid flow path 11 b). - Furthermore, in the
output adjustment mechanism 11, avalve element 11 d is disposed in the hydraulicfluid flow path 11 b which is energized by theoperation shaft 11 a and a spring 11 c in the direction of opening the hydraulicfluid flow path 11 b, and anoil chamber 11 e is formed on the rear portion of thevalve element 11 d which communicates with the interior of theliner 7 serving as a high-pressure chamber H at the timer of occurrence of the striking torque is generated is formed. An automatic relief mechanism is then provided in which, when the hydraulic fluid pressure in the high-pressure chamber H rises as the tightening operation proceeds, the hydraulic fluid pressure in the high-pressure chamber H rises in accordance with the progress of the tightening operation, the hydraulicfluid flow path 11 b becomes smaller (restricted) with increase in the hydraulic fluid pressure in the high-pressure chamber H, as show inFIGS. 9 (a) to 9(b) . - Accordingly, it is possible to improve the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench and shorten the generation cycle of the striking torque, thereby enhancing the work efficiency of the striking torque generation device of the hydraulic torque wrench.
- The striking torque adjustment device of the hydraulic torque wrench 1 disclosed in
Patent Document 3 provides excellent working effects described above, however, functions merely at the time of rotating in one direction, i.e., during normal rotation (tightening), and thud did not function during reverse rotation (loosening) so as not to provide the working effects described above. - In order to address this problem, the applicant has offered the striking torque generation device of the hydraulic torque wrench which can increases the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench at the time of rotating in both directions, i.e., during normal rotation (tightening) and reverse rotation (loosening), shortens the generation period of the striking torque, and also improve the durability of the striking torque generation device of the hydraulic torque wrench (Patent Document 4).
-
FIGS. 10 and 11 illustrate an example of the hydraulic torque wrench. Theoutput adjustment mechanism 11 which provided in the hydraulic torque wrench 1 to adjust the magnitude of the striking torque forms the hydraulicfluid flow path 11 b which communicates the interior of aliner 7 serving as the high-pressure chamber H and the low-pressure chamber L at the time of occurrence of the striking torque. Avalve element 15 d is disposed in the hydraulicfluid flow path 11 b which is energized in the direction of opening the hydraulicfluid flow path 11 b, and theoil chamber 11 e is formed on the rear portion of avalve element 15 d which communicates with a blade insertion portion 8 a of amain shaft 8 viaflow paths 7 c and 7 d formed onliner lids 7 a and 7 b. An automatic relief mechanism is then provided in which the hydraulicfluid flow path 11 b becomes smaller (the state shown in the upper side ofFIG. 11 ) with increase in the hydraulic fluid pressure in the blade insertion portion 8 a of themain shaft 8 which rises in accordance with the increase in the hydraulic fluid pressure in the high-pressure chamber H. - The
valve element 15 d is composed of twovalve elements 15 d disposed so as to face each other across the hydraulicfluid flow path 15 b, and is energized via aspring 15 c in a direction to open the hydraulicfluid flow path 15 b. - Here, in order to stabilize the operation of the two
valve element 15 d, onevalve element 15 d (theright valve element 15 d inFIG. 10 (a) ) is formed to be solid, and theother valve element 15 d (FIG. 10 (In a), theleft valve element 15 d) is formed in a bottomed cylindrical shape, and a spring receiver and guide 15 f to be inserted into the tubular portion of theleft valve body 15 d formed in a bottomed cylindrical shape is provided to be projected from theright valve body 15 d formed to be solid. - Then, the two
valve elements 15 d are disposed so as to face each other across the hydraulicfluid flow path 11 b, and theoil chamber 15 e is formed on the rear portion of eachvalve element 15 d which communicates with the blade insertion portion 8 a of themain shaft 8 via theflow paths 7 c and 7 d formed on theliner lids 7 a and 7 b, so that the twovalve elements 15 d move so as to decrease (restrict) the hydraulicfluid flow path 11 b with increase in the hydraulic fluid pressure in the blade insertion portion 8 a of themain shaft 8 which rises in accordance with the increase in the hydraulic fluid pressure in the high-pressure chamber H. - [Patent Document 1] JP H03-40076 U
- [Patent Document 2] JP H06-297349 A
- [Patent Document 3] JP 2009-83090 A
- [Patent Document 4] JP 2010-199790 A
- Then, the striking torque adjustment device of the hydraulic torque wrench disclosed in
Patent Documents output adjustment mechanism 11 which adjusts the magnitude of the striking torque. Furthermore, since there is a restriction on the size of the hydraulic fluid flow path at the time of opening, it is difficult to obtain an effect of improving a sufficient energy efficiency. Moreover, since the flow rate of the hydraulic fluid is adjusted by the hydraulic fluid pressure, there has been a problem of being susceptible to fluctuation in oil quantity. - An object of the present invention is to provide a striking torque adjustment device of a hydraulic torque wrench which enjoys the advantages, those which are the striking torque adjustment device of the hydraulic torque wrench disclosed in
Patent Document 3 andPatent Document 4 has, of improving the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench, shortening the generation cycle of the striking torque, while improving the durability and energy efficiency of the striking torque generation device of the hydraulic torque wrench, as well as making the device less susceptible to fluctuation in oil quantity. - In order to achieve the object described above, the striking torque adjustment device of the hydraulic torque wrench according to the present invention has a liner rotated by a rotor, and a main shaft and a blade disposed inside of the liner, characterized in that: the liner is provided with a cylinder portion formed in parallel to the rotation axis, and also a hydraulic fluid flow path is formed which opens to the cylinder portion to communicate with the interior of the liner serving as a high-pressure chamber and a low-pressure chamber at the time of occurrence of a striking torque; a cylindrical valve element having a cutout portion serving as a flow path for hydraulic oil formed on the outer peripheral surface portion is disposed inside the cylinder portion so as to be freely rotatable; the rotational position of the valve element changes inside the cylinder portion by means of centrifugal force caused by the revolution of the valve element obtained from rotation of the liner and an inertial force caused by the rotation of the valve element obtained from the sudden braking of the liner at the time of generation of the pulse; and an automatic relief mechanism is provided in which the change in the rotational position of the valve element inside the cylinder portion changes the overlapping area of the hydraulic fluid flow path of the cylinder portion and the cutout portion of the valve element so as to adjust the flow rate of the hydraulic fluid from the side of the high-pressure chamber to the side of the low-pressure chamber via the hydraulic fluid flow path and the cutout portion of the valve element.
- In this case, each of the ends of the valve element can be supported by a steel ball.
- According to the striking torque adjustment device of the hydraulic torque wrench according to the present invention, it is possible to improve the accuracy of the magnitude of the striking torque generated by a striking torque generation device of the hydraulic torque wrench, shorten the generation cycle of the striking torque, and furthermore improve the durability and energy efficiency of the striking torque generation device of the hydraulic torque wrench, as well as making the device less susceptible to fluctuation in oil quantity.
- Furthermore, each of the ends of the valve element is supported by a steel ball, so that it is possible to smoothen the rotational motion of the valve element.
-
FIG. 1 is an overall front cross-sectional view illustrating an example of a striking torque adjustment device of a hydraulic torque wrench according to the present invention. -
FIG. 2 is an operation explanatory view of the striking torque adjustment device of the hydraulic torque wrench according to the present invention. -
FIGS. 3(a) and 3(b) are explanatory views of a valve element of the striking torque adjustment device of the hydraulic torque wrench:FIG. 3(a) is an overall view; andFIG. 3(b) is a cross sectional view at A-A, B-B and C-C ofFIG. 3(a) . -
FIGS. 4(a) and 4(b) illustrate an output characteristic diagram:FIG. 4(a) shows a case of a conventional example (Patent Document 4); andFIG. 4(b) shows a case of the embodiments. -
FIGS. 5(a) and 5(b) illustrate an output characteristic diagram:FIG. 5(a) shows a case of a conventional example (Patent Document 4); andFIG. 5(b) shows a case of the embodiments. -
FIG. 6 is an overall front cross-sectional view illustrating a conventional striking torque adjustment device of a hydraulic torque wrench. -
FIG. 7 is an overall front cross-sectional view illustrating a conventional striking torque adjustment device of a hydraulic torque wrench. -
FIG. 8 is an overall front cross-sectional view illustrating a conventional striking torque adjustment device of a hydraulic torque wrench. -
FIGS. 9(a)-9(d) are explanatory views of the main part of the conventional striking torque adjustment device of the hydraulic torque wrench:FIG. 9(a) is a front cross-sectional view of the main part at the time of beginning of the tightening operation; -
FIG. 9(b) is a front cross-sectional view of the main part in progress of the tightening operation;FIG. 9(c) is a cross-sectional view at A-A ofFIG. 9(a) ; andFIG. 9(d) is a cross-sectional view at B-B ofFIG. 9(a) . -
FIGS. 10(a) and 10(b) illustrate a conventional striking torque adjustment device of a hydraulic torque wrench:FIG. 10(a) is a front cross-sectional view; andFIG. 9(b) is a cross-sectional view at A-A ofFIG. 9(a) . -
FIG. 11 is an operation explanatory view of a conventional striking torque adjustment device of a hydraulic torque wrench. - Embodiments of a striking torque adjustment device of a hydraulic torque wrench according to the present invention will be described below with reference to the drawings.
-
FIGS. 1 to 3 illustrate an example of a striking torque adjustment device of a hydraulic torque wrench according to the present invention. - A hydraulic torque wrench 1 is provided with a magnetostrictive
torque detection mechanism 12, and controls the driving of arotor 4 by an output from the magnetostrictivetorque detection mechanism 12. - A hydraulic torque wrench 1 is provided with a magnetostrictive
torque detection mechanism 12, and the drive of therotor 4 is controlled by the output of this magnetostrictivetorque detection mechanism 12. - Furthermore, an
output adjustment mechanism 11 is configured to adjust the magnitude of the striking torque by operating an operatingshaft 11 a so as to adjust the size of a hydraulicfluid flow path 11 b which communicates the interior of aliner 7 serving as a high-pressure chamber H and a low-pressure chamber L at the time of occurrence of the striking torque (specifically, the magnitude of the striking torque decreases by operating the operatingshaft 11 a toward the open side to enlarge (not to restrict) the hydraulicfluid flow path 11 b, whereas the magnitude of the striking torque increases by operating the operatingshaft 11 a toward the closed side to reduce (restrict) the hydraulicfluid flow path 11 b). - In the hydraulic torque wrench 1, the
liner 7 is provided with acylinder portion 14 a formed in parallel to the rotation axis, and also a hydraulicfluid flow path 14 c is formed which opens to thecylinder portion 14 a to communicate with the interior of the liner serving as a high-pressure chamber and a low pressure chamber at the time of occurrence of the striking torque. Acylindrical valve element 14 b having acutout portion 14 b′ serving as a flow path for hydraulic oil formed on the outer peripheral surface portion thereof is disposed inside thecylinder portion 14 a so as to be freely rotatable, so that the rotational position of thevalve element 14 b changes inside thecylinder portion 14 a by means of centrifugal force caused by the revolution of thevalve element 14 b obtained from rotation of theliner 7 and an inertial force caused by the rotation of thevalve element 14 b obtained from the sudden braking of theliner 7 at the time of generation of the pulse. - Then, an
automatic relief mechanism 14 is provided in which the change in the rotational position of thevalve element 14 b inside thecylinder portion 14 a changes the overlapping area of the hydraulicfluid flow path 14 c of thecylinder portion 14 a and thecutout portion 14 b′ of thevalve element 14 b so as to adjust the flow rate of the hydraulic fluid from the side of the high-pressure chamber H to the side of the low-pressure chamber L via the hydraulicfluid flow path 14 c and thecutout portion 14 b′ of thevalve element 14 b. - As shown in
FIGS. 3(a) and 3(b) , in thevalve element 14 b for use in theautomatic relief mechanism 14, the center of gravity thereof is offset from the central axis by forming thecutout portion 14 b′ that serves as a hydraulic oil flow path on the peripheral surface of the columnar material. - In this embodiment, the
cutout portion 14 b′ is divided into three sections by two partition walls, but can be configured as one cutout portion without being divided. - Thus, when the
liner 7 is rotating, the rotational position of thevalve element 14 b inside thecylinder portion 14 a is located by means of the centrifugal force caused by the revolution of thevalve element 14 b obtained from the rotation of theliner 7 so that thecutout portion 14 b′ of thevalve element 14 b is directed to the center side of the rotation axis of the liner 7 (the state shown in the lower part ofFIG. 2 ). This increases the overlapping area between an opening of the hydraulicfluid flow path 14 c of thecylinder portion 14 a and thecutout portion 14 b′ of thevalve element 14 b, and the flow rate of the hydraulic fluid via the hydraulicfluid flow path 14 c and thecutout portion 14 b′ of thevalve element 14 b is not restricted. - On the other hand, the rotational position of the
valve element 14 b inside thecylinder portion 14 a is changed by the inertial force caused by the rotation of thevalve element 14 b obtained from the sudden braking of theliner 7 at the time of generation of the pulse so that thecutout portion 14 b′ of thevalve element 14 b is directed toward the direction other than the center side of the rotation axis of the liner 7 (the state shown in the upper side ofFIG. 2 ). This decreases (or substantially decreases) the overlapping area between the opening of the hydraulicfluid flow path 14 c of thecylinder portion 14 a and thecutout portion 14 b′ of thevalve element 14 b, and the flow rate of the hydraulic fluid via the hydraulicfluid flow path 14 c and thecutout portion 14 b′ of thevalve element 14 b is restricted. - Since the degree of restriction of the flow rate of the hydraulic oil varies depending on the magnitude of the braking of the
liner 7 at the time of generation of the pulse, it is possible to improve the accuracy of the magnitude of the striking torque generated by a striking torque generation device of the hydraulic torque wrench and shorten the generation cycle of the striking torque, thereby enhancing the work efficiency. - The
valve element 14 b made of a columnar material can improve mechanical properties such as wear resistance by applying chrome plating to a steel rod, and each of ends 14 b″ of thevalve element 14 b can be supported by asteel ball 14 d. This makes it possible to smoothen the rotational motion of thevalve element 14 b. - Then, the striking torque generation device of the hydraulic torque wrench increases the accuracy of the magnitude of the striking torque generated by the striking torque generation device of the hydraulic torque wrench at the time of rotating in both directions, i.e., during normal rotation (tightening) and reverse rotation (loosening), shortens the generation period of the striking torque, and also improve the durability of the striking torque generation device of the hydraulic torque wrench. In addition thereto, the following effects are provided.
- (1) The conventional striking torque adjustment device of the hydraulic torque wrench has used
springs 11 c and 15 c for theoutput adjustment mechanism 11 which adjusts the magnitude of the striking torque. However, the striking torque adjustment device of the hydraulic torque wrench of the present invention does not use such a spring, and therefore the durability can be improved.
(2) The conventional striking torque adjustment device of the hydraulic torque wrench have had a limitation in size of the hydraulic fluid flow path when it is opened. However, the striking torque adjustment device of the hydraulic torque wrench of the present invention does not undergo such a restriction, and therefore the energy efficiency can be improved (compared to the conventional example (Patent Document 4) inFIGS. 4(a) and 4(b) in which high pressure air at 0.6 MPa is supplied to the rotor 4 (air motor), Example inFIG. 4(b) could reduce the time required for the tightening work from 0.87 seconds to 0.76 seconds).
(3) The striking torque adjustment device of the hydraulic torque wrench adjusts the flow rate of hydraulic oil by means of the pressure of the hydraulic oil, and thus has been susceptible to fluctuations in oil quantity. The striking torque adjustment device of the hydraulic torque wrench of the present invention can adjust the flow rate of the hydraulic oil irrespective of the pressure of the hydraulic oil, and therefore is less affected by fluctuation in oil quantity due to leakage of the hydraulic oil by long term use of the hydraulic torque wrench, thereby making it possible to maintain the stable operating status over a long period of time (compared to the conventional example (Patent Document 4) inFIG. 5(a) in which the filling amount of hydraulic oil is reduced 0.8 ml from the normal and the high pressure air at 0.5 MPa is supplied to the rotor 4 (air motor), Example inFIG. 5(b) could reduce the time required for the tightening work from 1.18 seconds to 0.93 seconds). - The striking torque adjustment device of the hydraulic torque wrench of the present invention has been described above based on the embodiment therefor. However, the present invention is not limited to the configuration described in the above embodiment, but the configuration can be modified as appropriate without departing from the spirit of the invention; that is, an electric motor may be used instead of the rotor 4 (air motor) that generates rotating torque with high-pressure air; and, instead of controlling the drive thereof by the output from the torque detection mechanism such as the magnetostrictive
torque detection mechanism 12, theoutput adjustment mechanism 11 is provided with a relief valve B, similar to the conventional hydraulic torque wrench disclosed inFIG. 7 , o that, when the tightening operation progresses and the hydraulic fluid pressure (striking torque) in the high-pressure chamber H reaches the set magnitude, the relief valve B is released and the hydraulic fluid pressure is transferred to a shut-offvalve mechanism 13. - The striking torque adjustment device of the hydraulic torque wrench of the present invention has the characteristics making it possible to improve the accuracy of the magnitude of the striking torque generated by a striking torque generation device of the hydraulic torque wrench, shorten the generation cycle of the striking torque, and furthermore improve the durability and energy efficiency of the striking torque generation device of the hydraulic torque wrench, as well as making the device less susceptible to fluctuation in oil quantity. Therefore, it may be suitable for use in hydraulic torque wrench applications that use a hydraulic striking torque generation device.
-
- 1 Hydraulic torque wrench
- 2 Main valve
- 3 Normal-reverse rotation switching valve
- 4 Rotor
- 5 Striking torque generation device
- 6 Case
- 7 Liner
- 7 a Liner upper lid
- 7 b Liner lower lid
- 7 c Flow path
- 7 d Flow path
- 8 Main shaft
- 8 a Blade insertion portion
- 9 Blade
- 10 Spring
- 11 Output adjustment mechanism
- 11 a Operating shaft
- 11 b Hydraulic fluid flow path
- 11 c Spring
- 11 d Valve element
- 11 e Oil chamber
- 12 Magnetostrictive torque detection mechanism
- 13 Shut-off valve mechanism
- 14 Automatic relief mechanism
- 14 a Cylinder portion
- 14 b Valve element
- 14 b′ Cutout portion
- 14 c Hydraulic fluid flow path (Opening)
- 14 d Steel Ball
- 15 Automatic relief mechanism
- 15 b Hydraulic fluid flow path
- 15 c Spring
- 15 d Valve element
- 15 e Oil chamber
- 15 f Spring receiver and guide
- B Relief valve
- H High-pressure chamber
- L Low-pressure chamber
Claims (2)
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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JP2018-188214 | 2018-10-03 | ||
JP2018188214A JP6816866B2 (en) | 2018-10-03 | 2018-10-03 | Impact torque adjuster for hydraulic torque wrench |
JPJP2018-188214 | 2018-10-03 |
Publications (2)
Publication Number | Publication Date |
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US20200108490A1 true US20200108490A1 (en) | 2020-04-09 |
US11052518B2 US11052518B2 (en) | 2021-07-06 |
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Application Number | Title | Priority Date | Filing Date |
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US16/577,414 Active 2040-03-17 US11052518B2 (en) | 2018-10-03 | 2019-09-20 | Striking torque adjustment device of hydraulic torque wrench |
Country Status (6)
Country | Link |
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US (1) | US11052518B2 (en) |
EP (1) | EP3632621B1 (en) |
JP (1) | JP6816866B2 (en) |
KR (1) | KR102647987B1 (en) |
CN (1) | CN110977857B (en) |
TW (1) | TWI778293B (en) |
Cited By (1)
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US11052518B2 (en) * | 2018-10-03 | 2021-07-06 | Uryu Seisaku Ltd. | Striking torque adjustment device of hydraulic torque wrench |
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CN114654431A (en) * | 2020-12-24 | 2022-06-24 | 喜利得股份公司 | Torque intensifier for impact tool |
WO2023278587A1 (en) * | 2021-06-29 | 2023-01-05 | Enerpac Tool Group Corp. | Hydraulic torque wrench |
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-
2018
- 2018-10-03 JP JP2018188214A patent/JP6816866B2/en active Active
-
2019
- 2019-09-13 EP EP19197244.7A patent/EP3632621B1/en active Active
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- 2019-09-27 CN CN201910920515.6A patent/CN110977857B/en active Active
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US11052518B2 (en) * | 2018-10-03 | 2021-07-06 | Uryu Seisaku Ltd. | Striking torque adjustment device of hydraulic torque wrench |
Also Published As
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JP2020055081A (en) | 2020-04-09 |
CN110977857A (en) | 2020-04-10 |
JP6816866B2 (en) | 2021-01-20 |
KR20200038415A (en) | 2020-04-13 |
EP3632621B1 (en) | 2021-10-06 |
EP3632621A1 (en) | 2020-04-08 |
CN110977857B (en) | 2023-02-28 |
TW202026115A (en) | 2020-07-16 |
KR102647987B1 (en) | 2024-03-15 |
US11052518B2 (en) | 2021-07-06 |
TWI778293B (en) | 2022-09-21 |
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